Abstract

Ferritin, an iron-sequestering and -binding protein, is localized to the vacuolar system in Calpodes ethlius larvae. The amount of iron-loaded ferritin in intact larval midgut can be increased by pretreatment with iron. When poly(A)+ RNA from control or iron-treated larvae was translated in vitro, a 24 kilodalton (kDa) protein was a major translation product. If the cell-free system was supplemented with dog pancreatic microsomes, the 24-kDa protein was not detectable: the major translation product was 28-30 kDa. The 24-kDa and 28- to 30-kDa proteins were identified as ferritin subunits by immunoprecipitation with anti-Manduca ferritin antibodies. Proteinase K digestion of the translation products showed that the 28- to 30-kDa subunit was targeted into the lumen of, and protected by, the microsomes. The change in molecular mass of the ferritin monomer was attributed to glycosylation of the 24-kDa subunit within the lumen of the microsomes. This was demonstrated by (i) the ability of the 28- to 30-kDa subunit, but not the 24-kDa subunit, to bind concanavalin A on Western blots and (ii) inhibition of the change in molecular mass from 24 to 28-30 kDa if tunicamycin is added to the microsomes. The results indicate that the Calpodes ferritin subunit was synthesized, targeted to microsomes, and glycosylated within their lumen in a rabbit reticulocyte cell-free system primed with midgut poly(A)+ RNA extracted from control or iron-treated larvae.

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